Recyclable, energy-saving and environmental-friendly packing box applicable to packaging various objects

ABSTRACT

A packing box is provided. The packing box is formed by several splicing materials of a standard model. The splicing material on the top of the packing box is provided with an air pump with automatic pumping and the pressure monitoring functions. The inner side of each splicing material is provided with an air bag, and the air bags are inflatable and connected to one another via connection tubes. The air bags are able to be spliced or separated with one another, and the shape of each air bag is subject to the outline dimension of a packaged object when the air bags are inflated. The size and shape of the packing box can be determined according to the size and shape of the packaged object, so is applicable to the objects with any sizes and shapes. The packing box does not need additional fillers and is recyclable.

TECHNICAL FIELD

The technical field relates to a packing box, in particular to arecyclable, energy-saving and environmental-friendly packing boxapplicable to packaging various objects.

BACKGROUND

With the arrival of Internet era, more and more people buy food orproducts via online shopping and delivery services. Various paperpacking boxes, plastic materials and foam fillers are used in order todeliver these products. Therefore, a lot of trash after the products aredelivered, which will in environmental pollution and water a lot ofenergy. Accordingly, it has become an important issue to provide arecyclable, energy-saving and environmental-friendly packing boxapplicable to packaging various objects so as to solve the aboveproblems.

SUMMARY

It is a primary objective of the present invention to provide arecyclable, packing box applicable to packaging various objects in orderto remedy the deficiencies of prior art. The packing box can be used topackage various kinds of objects with different shapes, which can reducepackaging cost, improve environmental pollution and save more packagingtime.

To achieve the foregoing objective, the present invention discloses thefollowing technical means:

1. The packing box is formed by a plurality of splicing materials of astandard model. The splicing material on the top of the packing box isprovided with an air pump with pressure monitoring function, automaticpumping function and pressure setting function. The inner side of eachof the splicing materials is provided with an air bag. The air bags areconnected to one another via connection tubes, and can be spliced orseparated with one another. The shape of each of the air bags is subjectto the outline dimension of a packaged object when the air bags areinflated. The splicing materials can be spliced with one another to formthe packing box having the size corresponding to the size of thepackaged object, so the packing box is applicable to any objects withdifferent sizes and shapes. The packing box does not need additionalfillers and is recyclable, so can satisfy the requirements of logisticsand express delivery in Internet era and can reduce the cost ofpackaging products.

2. As the packing box is formed by the splicing materials of thestandard model and the connection tubes are also of the standard model,the process of splicing or separating the splicing materials is simpleand efficient. Accordingly, each packing box is recyclable and can berepeatedly used, so using the packing box will not generate additionalrubbish, which can effectively satisfy the energy-saving andenvironmental-friendly requirements.

3. After the splicing materials are spliced to form the packing box, theair bags disposed on the inner sides of the splicing materials areconnected to one another by air tubes. Thus, a packaged object with anyshapes can be fixed in the packing box after the air bags are inflated,so the packaged object does not tend to be damaged. Besides, the packingbox does not need any fillers or other protection devices for fixing thepackaged object, which can save packaging materials, such as plasticmaterials, form fillers, etc., so as to reduce the volume ofindecomposable trash and decrease environmental pollution.

4. After the splicing materials are separated from one another, thesplicing materials are easy to be recycled and stored. In the commercialapplication, it is possible to charge some deposits from the usersaccording to the quantity and the size of the splicing materials inorder to effectively recycle and reuse the splicing materials.Therefore, the packaging cost can be greatly reduced. In addition, it isnot necessary to package the products for several times, so thetransportation cost can be decreased.

5. If the pressure of the air bags disposed on the inner sides of thepacking box decreases, the air pump with automatic pressure monitoringfunction can automatically pump up the air bags according to apredetermined pressure in order to make sure that the packaged objectwill not be damaged.

Further scope of applicability of the present application will becomemore apparent from the detailed description given hereinafter. However,it should be understood that the detailed description and specificexamples, while indicating exemplary embodiments of the disclosure, aregiven by way of illustration only, since various changes andmodifications within the spirit and scope of the disclosure will becomeapparent to those skilled in the art from this detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

The disclosure will become more fully understood from the detaileddescription given herein below and the accompanying drawings which aregiven by way of illustration only, and thus are not limitative of thedisclosure and wherein:

FIG. 1 is a perspective view of a recyclable, energy-saving andenvironmental-friendly packing box applicable to packaging variousobjects. FIG. 1 illustrates that a vertical rechargeable display isdisposed in the packing box.

FIG. 2 is a view illustrating the inner side of a splicing materialwithout an air pump.

FIG. 3 is a view illustrating the outer side of the splicing materialwithout the air pump.

FIG. 4 is a view illustrating the inner side of a splicing material withthe air pump and the battery cover thereof being closed.

FIG. 5 is a view illustrating the inner side of the splicing materialwith the air pump and the battery cover thereof being opened.

FIG. 6 is a view illustrating the outer side of the splicing materialwith the air pump.

FIG. 7 is a partial enlargement view illustrating two splicing materialsparallel to each other being connected by a connection device.

FIG. 8 is a partial enlargement view illustrating two splicing materialsvertical to each other being connected by a connection device.

FIG. 9 is a view illustrating six splicing materials being spliced withone another.

FIG. 10 is a view illustrating a packing box formed by splicing sixsplicing materials with one another.

DETAILED DESCRIPTION

In the following detailed description, for purposes of explanation,numerous specific details are set forth in order to provide a thoroughunderstanding of the disclosed embodiments. It will be apparent,however, that one or more embodiments may be practiced without thesespecific details. In other instances, well-known structures and devicesare schematically shown in order to simplify the drawing.

FIG. 1 is a perspective view of a recyclable, energy-saving andenvironmental-friendly packing box applicable to packaging variousobjects. The packing box is formed by one or more splicing materials ofa standard model. One of the splicing materials on the top of thepacking box is provided with an air pump, and the splicing materials onthe bottom, the left side, the right side, the front side and the rearside of the packing box have no the air pump.

The reference number (1) stands for the outer side of the splicingmaterial, without the air pump, of the standard model. The referencenumber (2) stands for the air pump gauge of the splicing material withthe air pump. The reference number (3) stands for the inflatable airbag. The reference number (4) stands for the packaged object, a verticalrechargeable display having irregular contours. When the air bags on theinner sides of the packing box are completely inflated, the display isstably fixed in the packing box without shaking. Moreover, the air pumpwith automatic pumping function can automatically monitor the pressurestate of the air bags. If the storage time is too long and the pressureof air bags is less than a predetermined value, the air pump canautomatically activate the pumping function in order to increase thepressure of the air bags to the predetermined value. Thus, the packagedobject can be stably fixed and will not be damaged during thetransportation process.

FIG. 2 is a view illustrating the inner side of the splicing materialwithout the air pump. The reference number (5) stands for the connectiondevice. The reference number (6) stands for the air bag connection tube.The reference number (7) stands for the air bag connection tube valve.When two splicing materials are connected to each other via theconnection device and the air bag connection tube valve is opened, theair bags (3) on the two splicing materials are connected to each other.

FIG. 3 is a view illustrating the outer side of the splicing materialwithout the air pump. The reference number (1) stands for the outer sideof the splicing material of the standard model. The reference number (5)stands for the connection device.

FIG. 4 is a view illustrating the inner side of the splicing materialwith the air pump and the battery cover thereof being closed. Thereference number (8) stands for the air pump and the battery coverthereof. The reference number (13) stands for the air pump controlbutton.

FIG. 5 is a view illustrating the inner side of the splicing materialwith the air pump and the battery cover thereof being opened. Thereference number (9) stands for the rear side of the air pump gauge. Thereference number (10) stands for the air bag pump. The reference number(11) stands for the batter set. When several splicing materials arespliced to one another to form a packing box, the user can open the airbag connection tube valve to make it be parallel to the connection tube,set the desired pressure value and press the air pump control button(13). Then, the air pump can activate the automatic pumping function toincrease the pressure of the air bags to the predetermined value inorder to completely wrap up and fix the packaged object.

FIG. 6 is a view illustrating the outer side of the splicing materialwith the air pump. The reference number (2) stands for the front side ofthe air pump gauge.

FIG. 7 is a partial enlargement view illustrating two splicing materialsparallel to each other being connected by a connection device. The usercan put two splicing materials on a plane to make them be parallel toeach other and insert the connection device (5) into the holes (12),such that the two splicing materials can be connected to each other. Thequantity of the splicing materials can be increased or decreasedaccording to the size of the packaged object so as to make the packingbox be able to contain the packaged object.

FIG. 8 is a partial enlargement view illustrating two splicing materialsvertical to each other being connected by a connection device. When itis necessary to connect two splicing materials vertical to each other,the user can bend the connection device (5) from the middle thereof soas to connect the two splicing materials to each other via theconnection device (5).

FIG. 9 is a view illustrating six splicing materials being spliced withone another. As shown in FIG. 9, six splicing materials are connected toone another according to the size of the packaged object. After the airbag connection tube valve is opened, the air bags on all splicingmaterials of the packing box are connected to one another and anunfolded square packing box is formed. It is usually to dispose thesplicing material with the air pump on the top cover of the packing boxwith a view to conveniently check the air pump gauge.

FIG. 10 is a view illustrating a packing box formed by splicing sixsplicing materials with one another. As shown in FIG. 10, six splicingmaterials are connected to one another to form a square packing box.After the air bag connection tube valve is opened, the air bags on allsplicing materials of the packing box are connected to one another.After the user puts the packaged object in the packing box and properlyadjust the pressure of the air bags, the user can press the air pumpcontrol button (13) to inflate the air bags. Then, the air bags arecompletely inflated after reaching the predetermined pressure. Finally,the packing box having the packaged object disposed therein is ready tobe transported.

It will be apparent to those skilled in the art that variousmodifications and variations can be made to the disclosed embodiments.It is intended that the specification and examples be considered asexemplary only, with a true scope of the disclosure being indicated bythe following claims and their equivalents.

What is claimed is:
 1. A packing box applicable to packaging variousobjects, recyclable, energy-saving and environmental-friendly,characterized in that the packing box is formed by a plurality ofsplicing materials of a standard model, wherein the splicing material ona top of the packing box is provided with an air pump with a pressuremonitoring function, an automatic pumping function and a pressuresetting function, and one or more the splicing materials on a bottom, aleft side, a right side, a front side and a rear side of the packing boxhave no the air pump, wherein an inner side of each of the splicingmaterials is provided with an air bag, and the air bags are inflatableand connected to one another via connection tubes, wherein the air bagsare able to be spliced or separated with one another, and a shape ofeach of the air bags is subject to an outline dimension of a packagedobject when the air bags are inflated.
 2. The packing box of claim 1,wherein each of the splicing materials is of the standard model and thesplicing materials are able to be spliced with one another to form thepacking box having a size corresponding to a size of the packagedobject.
 3. The packing box of claim 1, wherein when a pressure of theair bags disposed inside the packing box decreases, the air pump withthe pressure monitoring function is able to automatically pump up theair bags according to a predetermined pressure value.
 4. A recyclablepacking box, comprising: a plurality of splicing materials of a standardmodel; a plurality of connection device for connecting the plurality ofsplicing materials; a plurality of inflatable air bags, wherein an innerside of each splicing material is provided with one of the plurality ofinflatable air bags, and the plurality of inflatable air bags areconnected to one another via connection tubes, and a shape of each ofthe air bags is contoured against an outline dimension of a packagedobject when inflated; and an air pump located at the splicing materialon a top of the packing box, wherein the air pump has a pressuremonitoring function, an automatic pumping function, and a pressuresetting function.
 5. The recyclable packing box of claim 4, wherein theinflatable air bags are spliced with one another.
 6. The recyclablepacking box of claim 5, wherein the inflatable air bags are spliced withone another via connection tubes and connection tube valves.
 7. Therecyclable packing box of claim 4, wherein each of the connectiondevices is constructed with two T-shape elements.
 8. The recyclablepacking box of claim 7, wherein each T-shape element comprises a clawfor securely attaching to one of the splicing materials.
 9. Therecyclable packing box of claim 4, further comprising a battery and acontrol button for operating the air pump.